body surface area ( bsa ) is equal to: body weight (kg) 2/3 x 10 -4 x k k for dog = 10.1

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THE PARADOX OF HUMAN EQUIVALENT DOSE FORMULA – A CANONICAL CASE STUDY OF PIROXICAM (FELDENE) IN

MONOGASTRIC ANIMALSSAGANUWAN ALHAJI

SAGANUWAN(DVM, PGD, PGDE, MSc, PhD,

FIIA)

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PIROXICAM IS A NON-STEROIDAL ANTI-

INFLAMMATORY ANALGESIC THAT CAN CAUSE ALCERATION

OF MUCOSAL LINING AND BLEEDING OF

GASTROINTESTINAL TRACT. IT IS ALSO TOXIC TO KIDNEY. THE

DAILY DOSE FOR AVERAGE ADULT HUMAN IS 10-40

MILLIGRAMMES

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ALLOMETRIC SCALING IS AN EMPIRICAL EXAMINATION OF THE RELATIONSHIP

BETWEEN THE PHARMACOKINETIC PARAMETERS AND SIZE (USUALLY BODY

WEIGHT, RATIO OF ORGAN & BODY WEIGHT, BREATHING NUMBER ETC). THE ALLOMETRIC

EQUATION IS:

=

WHERE P = PHYSIOLOGICAL PROPERTY OR ANATOMIC SIZE

a = EMPIRICAL COEFFICIENT

BW = BODYWEIGHT

m = ALLOMETRIC EXPONENT

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THE SURFACE AREA STILL FINDS WIDE ACCEPTANCE IN THE

CLINICAL LITERATURE, AND IS AT NO MORE THAN A ROUGH EMPIRICAL APPROXIMATION EVEN FOR HOMOITHERMS.

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BODY SURFACE AREA (BSA) IS EQUAL TO: BODY WEIGHT (kg)2/3

x 10-4 x KK FOR DOG = 10.1K FOR CAT = 10.0

EMPIRICAL COEFFICIENT = 10-4

THE BODY WEIGHT EXPONENTS 2/3 OR ¾ CAN BE USED

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BUT ¾ EXPONENT GIVES A HIGHER DOSE THAN 2/3, HENCE

SHOULD NOT BE APPLIED

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DOG*, CAT, MONKEY*, BABOON*, RABBIT*, MICRO-PIG, MINI-PIG, SQUIRREL MONKEY, MARMOSET, FERRET, GUINEA –

PIG*, HARMSTER, RAT & MOUSE

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HUMAN EQUIVALENT DOSE (HED) WHICH IS EQUAL TO ANIMAL DOSE (AD) MULTIPLIED BY ANIMAL KM DIVIDED BY HUMAN KM WAS USED TO PROJECT THE THERAPEUTIC DOSES OF PIROXICAM IN

SEVEN (7) MONOGASTRIC ANIMALS.HED =

WHEREAS KM FACTOR IS BODY WEIGHT (KG) DIVIDED BY BODY SURFACE AREA

(m)2

Km =

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HUMAN EQUIVALENT NO-OBSERVABLE ADVERSE EFFECT DOSES WHERE DETERMINED BY

MULTIPLYING ANIMAL NO-OBSERVABLE ADVERSE EFFECT DOSE BY ANIMAL WEIGHT (AW)

DIVIDED BY HUMAN WEIGHT (HW).

HENAED =

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TABLE: HUMAN-MONOGASTRIC ANIMAL EQUIVALENT DOSES OF PIROXICAM (20

MILLIGRAMMES)S/No Species Body

weight (kg)BSA (m2)

Km Factor

Therapeutic Dose (mg)

Total Translated Dose (mg)

Total given Literature dose

(mg)1. Mouse 0.02 0.007 2.9 3.6 0.072*2. Hamster 0.08 0.02 4.0 2.6 0.2*3. Rat 0.15 0.025 6.0 1.7 0.25*4. Guinea pig 0.4 0.069 5.8 1.8 0.72*5. Rabbit 1.8 0.15 12.0 0.89 1.6 -6. Monkey 3.0 0.24 12.5 0.85 2.5 -7. Baboon 12 0.6 20.0 0.53 6.3 -8. Ferret 0.3 0.043 7.0 1.53 0.45*9. Marmoset 0.35 0.06 5.8 1.84 0.64*10. Squirrel monkey 0.6 0.09 6.7 1.59 0.95*11. Cat 7.0 0.37 18.9 0.56 3.9* -12. Dog* 10 0.5 20.0 0.53* 5.3* 3 – 513. Micro-pig 20 0.74 27.0 0.39 7.8 -14. Mini-pig 40 1.14 35.1 0.30* 12** -15. Adult human 70 1.86 37.6 0.285 - 10-40**

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*SINGLE DOSES OF PIROXICAM (20 - 40 MG) IN HUMAN ARE REASONABLY EFFECTIVE FOR TREATING MODERATE TO SEVERE POST-OPERATIVE PAINS AND COMPARE FAVOURABLY WITH

OPIOID ANALGESICS SUCH AS DEXTROPROPOXYPHENE AND

TRAMADOL. *FEW ADVERSE EFFECTS WERE REPORTED AND PIROXICAM

APPEARS TO BE FAIRLY TOLERATED IN THIS CLINICAL CONTEXT.

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*IN MULTIPLE DOSING THE ADVERSE EFFECT PROFILE MAY BE MORE

PROMINENT, THEREFORE, THERE IS A DEFINITE NEED TO BE ABLE TO QUANTITATIVELY ASSESS THE

EFFICACY AND ADVERSE EFFECTS OF PIROXICAM IN PROLONGED DOSING REGIMENS (MOORE ET AL., 2010).

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THE EXTRAPOLATED HIGH DOSES OF PIROXICAM FOR MONOGASTRIC

ANIMALS AGREES WITH THE REPORTS OF CALEJESAN ET AL. (2000),

SUKUMARANNAR ET AL. (2002) AND HELLYER ET AL. (2007) INDICATING

THAT ANIMALS FEEL MORE PAIN THAN HUMANS, SINCE THEY POSSESS MORE DIFFUSE NEURAL NETWORKS.

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THE EXTRAPOLATED DOSE OF PIROXICAM (1.7 MG/KG) AGREES

WITH THE REPORT OF UDEGBUNAM ET AL. (2012) INDICATING THAT

PIROXICAM (5MG/GK) ALLEVIATED PAIN AND STRESS ASSOCIATED WITH WOUNDS IN RATS WITH

MINIMAL SIDE EFFECTS.

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STURMAN AND SMITH (1967) REPORTED THAT RHESUS MONKEY, RABBIT AND GUINEA-PIG RESEMBLE MAN IN HAVING A RELATIVELY HIGH AFFINITY FOR BINDING SALICYTE A NSAIDS SIMILAR TO PIROXICAM IN PHARMACOLOGICAL ACTION. BUT BABOON, DOG, RAT AND MOUSE HAD A LOW BINDING CAPACITY.

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GASTRIC LESION AND RENAL PAPILLARY NECROSIS HAVE

OCCURRED IN DOGS RECEIVING 1 MG/KG DAILY (GALBRAITH AND

MCKELLAR, 1991; KNAPP ET AL., 1992). HOWEVER, LITTLE EVIDENCE OF TOXICITY (GASTROINTESTINAL

BLEEDING WAS NOTED AFTER ADMINISTRATION OF 0.3 MG/KG

EVERY OTHER DAY (GALBRAITH AND MCKELLAR, 1991; KNAPP ET AL.,

1992).

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EXTRAPOLATION FROM USE IN HUMANS TO DOGS SHOULD BE DONE CAUTIOUSLY BECAUSE OF

POSSIBLE DIFFERENCES IN VOLUME OF DISTRIBUTION,

THERAPEUTIC CONCENTRATIONS OR SAFETY MARGIN (BOOTHE,

2001).

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CONCLUSION:i. THE EXTRAPOLATED TOTAL DOSES FOR DOG (10kg),

CAT (7kg), RABBIT (1.8kg), MONKEY (3kg), BABOON (6.3kg), MICRO-PIG (20kg) AND MINI-PIG (40kg) ARE 5.3, 3.9, 1.6, 2.5, 6.3, 1.6mg RESPECTIVELY

ii. LITERATURE SEARCH HAS SHOWN A TOTAL OF 3-5mg FOR A DOG WEIGHING 10kg

iii. FOR A DOG WEIGHING 10kg, A DOSE OF 5.3 MILLIGRAMME SHOULD NOT BE EXCEEDED, AND THE SAME PRINCIPLE APPLIES TO THE REST OF EXTRAPOLATED DOSES, SINCE THE DOSES HAVE NOT BEEN EVALUATED

iv. LABORATORY TEST CAN BE CARRIED OUT FOR VALIDATION OF THE EXTRAPOLATED DOSES.

v. THE ROUGH ESTIMATION OF THERAPEUTIC DOSES FOR HUMAN DRUGS WHOSE ANIMAL DOSES HAVE NOT BEEN DETERMINED IS EVIDENT IN VETERINARY CLINICAL PRACTICE.

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REFERENCES:

BOOTHE, 2001 CALEJESAN ET AL.,

2000

DUBOIS & DUBOIS, 1915, 1916

GALBRATH AND MCKELLAR, 1991

HELLYER ET AL. 2007

MOORE ET AL., 2010

PLUNKETT, 2001, KAPP ET AL., 1992,

1994

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REFERENCES:

REAGAN-SHAW ET AL., 2007

SAGANUWAN, 2012

SAGANUWAN & ONYEYILI, 2014

STURMAN AND SMITH, 1967

SUKUMARANNAR ET AL., 2002

UDEGBUNA, ET AL., 2012

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ACKNOWLEDGEMENT

I SINCERELY THANK THE

MANAGEMENT OF THE OMIC FOR

GIVING ME AN OPPORTUNITY TO

PRESENT THIS FOR THE SAKE OF

KNOWLEDGE, OUR CLIENTS AND

PATIENTS

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THANKS FOR

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